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Therapeutic suppression of translation initiation factor eIF4E expression reduces tumor growth without toxicity
Jeremy R. Graff, … , Julia H. Carter, Eric G. Marcusson
Jeremy R. Graff, … , Julia H. Carter, Eric G. Marcusson
Published September 4, 2007
Citation Information: J Clin Invest. 2007;117(9):2638-2648. https://doi.org/10.1172/JCI32044.
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Therapeutic suppression of translation initiation factor eIF4E expression reduces tumor growth without toxicity

Abstract

Expression of eukaryotic translation initiation factor 4E (eIF4E) is commonly elevated in human and experimental cancers, promoting angiogenesis and tumor growth. Elevated eIF4E levels selectively increase translation of growth factors important in malignancy (e.g., VEGF, cyclin D1) and is thereby an attractive anticancer therapeutic target. Yet to date, no eIF4E-specific therapy has been developed. Herein we report development of eIF4E-specific antisense oligonucleotides (ASOs) designed to have the necessary tissue stability and nuclease resistance required for systemic anticancer therapy. In mammalian cultured cells, these ASOs specifically targeted the eIF4E mRNA for destruction, repressing expression of eIF4E-regulated proteins (e.g., VEGF, cyclin D1, survivin, c-myc, Bcl-2), inducing apoptosis, and preventing endothelial cells from forming vessel-like structures. Most importantly, intravenous ASO administration selectively and significantly reduced eIF4E expression in human tumor xenografts, significantly suppressing tumor growth. Because these ASOs also target murine eIF4E, we assessed the impact of eIF4E reduction in normal tissues. Despite reducing eIF4E levels by 80% in mouse liver, eIF4E-specific ASO administration did not affect body weight, organ weight, or liver transaminase levels, thereby providing the first in vivo evidence that cancers may be more susceptible to eIF4E inhibition than normal tissues. These data have prompted eIF4E-specific ASO clinical trials for the treatment of human cancers.

Authors

Jeremy R. Graff, Bruce W. Konicek, Thomas M. Vincent, Rebecca L. Lynch, David Monteith, Spring N. Weir, Phil Schwier, Andrew Capen, Robin L. Goode, Michele S. Dowless, Yuefeng Chen, Hong Zhang, Sean Sissons, Karen Cox, Ann M. McNulty, Stephen H. Parsons, Tao Wang, Lillian Sams, Sandaruwan Geeganage, Larry E. Douglass, Blake Lee Neubauer, Nicholas M. Dean, Kerry Blanchard, Jianyong Shou, Louis F. Stancato, Julia H. Carter, Eric G. Marcusson

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